In helicopter field, electromechanical devices controllers are usually designed and tuned from global analysis with transfer functions calculations. This leads to control architectures with a reduced number of controllers. Their regulating loops are usually global PID controllers where parameters are directly set up on dedicated test benches. Energetic representation tools such as Energetic Macroscopic Representation (EMR) aim at simplifying systems analysis and control providing model and control structuring method. In this paper, a simplified helicopter flight axis control is modelled with the intention of controlling the helicopter stick force feedback. Performances of both global PID and energetic model based inversion controllers are discussed through simulation results

BARRE, Pierre-Jean

GOMAND, Julien

MALBURET, François

MARTIN, Mikael

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Mikael MARTIN, Julien GOMAND, François MALBURET, Pierre-Jean BARRE - Modelling and
Control of an Effort Feedback Actuator in Helicopter Flight Control Using Energetic Macroscopic
Representation - In: IMAACA 2011, 5th International Conference on Integrated Modeling and
Analysis in Applied Control and Automation, Italie, 2011-09-12 - IMAACA 2011 - 2011
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MODELLING AND CONTROL OF AN EFFORT FEEDBACK ACTUATOR IN 
HELICOPTER FLIGHT CONTROL USING ENERGETIC MACROSCOPIC 
REPRESENTATION 
 
 
Mikaël MARTIN*(a), Julien GOMAND*(b), François MALBURET*(c), Pierre-Jean BARRE*(d) 
 
 
(*) LSIS, Arts et Métier ParisTech – Aix en Provence (Fr) 
 
(a)mikael.martin-7@etudiants.ensam.eu, (b)julien.gomand@ensam.eu, (c)francois.malburet@ensam.fr, 
 (d)pierre-jean.barre@ensam.eu,  
 
 
 
 
ABSTRACT 
In helicopter field, electromechanical devices 
controllers are usually designed and tuned from global 
analysis with transfer functions calculations. This leads 
to control architectures with a reduced number of 
controllers. Their regulating loops are usually global 
PID controllers where parameters are directly set up on 
dedicated test benches. Energetic representation tools 
such as Energetic Macroscopic Representation (EMR) 
aim at simplifying systems analysis and control 
providing model and control structuring method. In this 
paper, a simplified helicopter flight axis control is 
modelled with the intention of controlling the helicopter 
stick force feedback. Performances of both global PID 
and energetic model based inversion controllers are 
discussed through simulation results. 
 
Keywords: causal inversion, model-based control, EMR 
 


English

Modelling and Control of an Effort Feedback Actuator in Helicopter Flight Control Using Energetic Macroscopic Representation

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SAM : Science Arts et Métiers

In helicopter field, electromechanical devices controllers are usually designed and tuned from global analysis with transfer functions calculations. This leads to control architectures with a reduced number of controllers. Their regulating loops are usually global PID controllers where parameters are directly set up on dedicated test benches. Energetic representation tools such as Energetic Macroscopic Representation (EMR) aim at simplifying systems analysis and control providing model and control structuring method. In this paper, a simplified helicopter flight axis control is modelled with the intention of controlling the helicopter stick force feedback. Performances of both global PID and energetic model based inversion controllers are discussed through simulation results.International audienceIn helicopter field, electromechanical devices controllers are usually designed and tuned from global analysis with transfer functions calculations. This leads to control architectures with a reduced number of controllers. Their regulating loops are usually global PID controllers where parameters are directly set up on dedicated test benches. Energetic representation tools such as Energetic Macroscopic Representation (EMR) aim at simplifying systems analysis and control providing model and control structuring method. In this paper, a simplified helicopter flight axis control is modelled with the intention of controlling the helicopter stick force feedback. Performances of both global PID and energetic model based inversion controllers are discussed through simulation results

Modelling and Control of an Effort Feedback Actuator in Helicopter Flight Control Using Energetic Macroscopic Representation

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